GE Healthcare Innova IGS 620-630 Final Study

Introduction and Disclaimer

This document is a final study report for the GE Healthcare Innova IGS 620-630 system. It serves as a comprehensive guide for site planning and installation. A mandatory component of this drawing set is the GE Healthcare Pre-Installation manual, which is essential for complete site design and preparation. Pre-installation documents can be accessed at www.gehealthcare.com/siteplanning.

GE Healthcare does not assume responsibility for damages resulting from unauthorized changes to drawings. Errors may occur if the complete set of final issue drawings is not referenced. GE cannot accept responsibility for damage due to partial use of GE final issue drawings. All dimensions are in millimeters unless otherwise specified. Do not scale from printed PDF files.

General Specifications

• GE is not responsible for the installation of accessories not specified in the order.
• The study provides recommendations for equipment location, electrical wiring, and room arrangements, considering the actual equipment to be installed.
• Room dimensions and pre-installation details are based on on-site studies and customer preferences.
• GE cannot take responsibility for errors due to inaccurate room dimensions from previous layouts.
• Dimensions apply to finished room surfaces.
• Actual configurations may differ from typical views or tables.
• Site modifications after study approval require GE investigation for feasibility.
• Equipment layout indicates placement and interconnection; local requirements may impact placement, and customers must ensure compliance with all applicable local requirements.
• All installation work must comply with building regulations and safety standards.
• These drawings are not for construction purposes; the company is not responsible for resulting damage.

Customer Responsibilities

• Prepare the site according to the final study specifications.
• Ensure all site readiness checklist requirements are fulfilled.
• A structural engineer must verify that floor and ceiling structures can bear the installed system's loads.
• The customer is responsible for the layout, dimensioning, and selection of appropriate installation methods for additional structural elements.
• Execution of load-bearing structures is the customer's responsibility.
• Suitable radiological protection must be determined by a qualified radiological physicist. GE is not responsible for radio-protection specification or provision.

Customer Site Readiness Requirements

Required Manuals for System Pre-Installation

• Product specific Pre-installation Manual (Refer to cover page). Documents are accessible in multiple languages at https://www.gehealthcare.com/support/manuals.

Pre-Installation Requirements

• The GE HealthCare Pre-installation manual is mandatory.
• GE HealthCare Site Readiness Checklist (DOC2949062) and Worksheet (DOC2949068) items are REQUIRED for equipment delivery.
• Any deviation from drawings must be communicated in writing and reviewed by the local GE HealthCare installation project manager.
• Arrange for rigging, special handling, or facility modifications for equipment delivery.
• New construction requires a secure area for equipment, power for test equipment, and restrooms.
• Provide for refuse removal and disposal.

Interference Specifications

Magnetic Interference Specifications

• Image intensifiers require ambient static magnetic fields of less than 1 gauss.
• X-ray tubes require ambient static magnetic fields of less than 10 gauss.
• System electronics require ambient static magnetic fields of less than 10 gauss for data integrity.
• Operator console equipment requires ambient static magnetic fields of less than 10 gauss for geometric linearity.

Electromagnetic Interference

The system is suitable for use in the specified electromagnetic environment. Users must ensure it is used in an environment as described:

Equipment Layout

The document includes detailed diagrams and a comprehensive list of equipment components for the Innova IGS 620-630 system, covering the Exam Room, Control Room, and Technical Room.

Equipment List

Exam Room Height

Finished floor to false ceiling: Required 2845mm (9'-4" +/- 0.2")

Section Views

The document includes section views (A-A', B-B', C-C', D-D') illustrating the layout and component placement within the Control Room, Exam Room, and Technical Room, indicating ceiling heights and floor levels.

Equipment Details

Detailed diagrams and specifications are provided for various system components:

• Gantry: Front, top, and side views with dimensions, center of gravity, and operational angles.
• Omega V Patient Table: Front, top, and side views with dimensions, center of gravity, table rotation, and clearance recommendations.
• Lateral Positioner: Front, top, and side views with dimensions and center of gravity.
• Innova Cabinets (C1 AP, C1 LAT, C2): Plan, front, and side views with dimensions and center of gravity data.
• Large Display Cabinet: Plan, front, and side views with dimensions.
• 3kVA UPS: Plan, front, and side views with dimensions.
• 20kVA Fluoro UPS: Top, front, and side views with dimensions, air flow indication, and center of gravity.
• X-Ray Tube Chiller: Top, front, and side views with dimensions.
• Coolix Autotransformer: Plan, front, and side views with dimensions.
• 1kVA UPS: Top, front, and side views with dimensions.
• Detector Conditioner: Top, front, and side views with dimensions, indicating air flow.

Delivery Information

Customer Delivery Responsibilities

• Provide an area adjacent to the installation suite for delivery and unloading.
• Ensure all access routes (doors, corridors, ceiling heights) are sufficient for equipment movement.
• Ensure access routes accommodate equipment weights and transportation/rigging equipment.
• Make necessary arrangements for stopping and unloading on public or private property.

Shipping Dimensions and Weights

Shipping Dolly for LP Gantry

• Dimensions: Length: 2790 mm (109.8 in), Width: 1135 mm (44.7 in), Height: 2152 mm (84.7 in) (adjustable).
• Shipping Weight: 1225 kg [2700 lb].

Shipping Dolly for LC Gantry

• Dimensions: Length: 2820 mm (111 in), Width: 1160 mm (46 in) (adjustable), Height: 2000 mm (78.7 in).
• Shipping Weight: 1060 kg [2337 lb].

Structural Requirements

Structural Notes

• Customer or contractors supply all steel work and parts for ceiling-mounted supports. Supports must be continuous, parallel, square, and flush with the finished ceiling, with minimal deflection.
• Methods of support attaching to structural steel or through bolts in concrete are favored. Avoid concrete/masonry anchors in direct tension.
• Wall-mounted units require customer-supplied and installed wall supports.
• Ceiling-mounted fixtures, air vents, sprinklers must be flush or extend no more than 6.35mm (1/4") below the finished ceiling.
• Control walls with tube hanger passage must be 2130mm (7'-0") high.
• Floor slabs must be level to 3.17mm (1/8") in 3050mm (10'-0").
• Customer contractors must provide all penetrations in post-tension floors and install non-standard anchoring.
• Customer is responsible for floor/wall penetrations and ensuring no subsurface utilities interfere with operations. GE installers require customer validation and a "GE surface penetration permit" before drilling.

Structural Layout and Details

Diagrams and specifications detail the placement of structural supports for equipment, including baseplates, backing, cable drape rails, and suspension systems. Specific mounting specifications are provided for lateral positioner and monitor suspension rails, including force limits and deflection tolerances (e.g., for lateral positioner rails, forces up to 1912 N [430 lb] must not deflect more than 1.6 mm [1/16 in]).

Ceiling Suspension Disclaimer: Installation requires confirmation of structural support strength by a structural engineer. Determination of installation hardware and torque values is the structural engineer's responsibility. Failure to follow instructions can lead to dangerous conditions. GE and MAVIG are not responsible for unauthorized modifications. A certificate from a structural engineer is required for all pre-installations.

Environmental Specifications

Temperature and Humidity

In-Use Conditions

• Exam Room: Temperature 15-32°C (59-90°F), Humidity 30-70%, Temp/Humidity Gradient ≤10°C/h, ≤10%/h.
• Control Room: Temperature 15-35°C (59-95°F), Humidity 30-75%, Temp/Humidity Gradient ≤10°C/h, ≤10%/h.
• Technical Room: Temperature 20-25°C (68-77°F), Humidity 30-75%, Temp/Humidity Gradient ≤10°C/h, ≤10%/h.

Storage Conditions

• Temperature: +10°C to +40°C (50°F to 104°F).
• Humidity: 10% to 80%.
• Overall storage time: Not more than 90 days. Special conditions apply for storage above +25°C/+30°C.

Heat Dissipation

The document provides tables detailing heat output (kW and BTU/hr) for various system components (e.g., Innova Frontal/Lateral Positioner and Table, Large Display Monitor, DL console, Cabinets, Chillers, UPS) under different operating modes (Standby, Moderate, Typical, Max). For example, the Innova Frontal/Lateral positioner and table has a typical heat output of 1.21 kW (4128 BTU/hr).

Electrical Requirements

Electrical Notes

• Use of aluminum or solid wires is prohibited.
• Wire sizes must comply with local codes; larger sizes may be required.
• Wires should be color-coded per national/local codes.
• Conduit sizes must be verified by an architect/engineer/contractor.
• Convenience outlets are not illustrated but should be placed near the system control, power distribution unit, and on each wall of the procedure room.
• Caution is advised regarding overhead spotlights to avoid damage to ceiling components from high wattage bulbs; low wattage bulbs and dimmers are recommended.
• Routing of cable ductwork and conduits should be direct to avoid needing longer cable lengths.
• Conduit turns require large, sweeping bends.
• Ground wires may need to be sized larger than code per GEHC specification.
• A special grounding system may be required per national/local codes.
• Maximum point-to-point distances must not be exceeded.
• Primary power connection is by the customer's electrical contractor under GEHC supervision.
• GEHC conducts power audits; customer's contractor must be available.
• Customer's contractor must provide knockouts, grommeted openings, etc., for installation.

Connectivity Requirements

• Local connectivity (e.g., PACS, modality worklist) requires network information and a live Ethernet port.
• Remote connectivity uses InSite™ for digital support, enabling remote diagnostics and troubleshooting.
• Connection methods include TLS over TCP Port 443 (preferred) or Site-to-Site IPsec VPN tunnel.
• Contact information for connectivity setup resources must be provided to the GE project manager.

Electrical Layout and Diagrams

Detailed diagrams illustrate the electrical layout, including junction boxes, conduits, and wiring runs for the Exam Room, Control Room, and Technical Room. An electrical outlet legend specifies types and locations. Feeder tables provide minimum wire sizes and lengths based on voltage and current. Interconnection diagrams show cable routing and lengths between components and rooms.

Power Requirements

• Power Supply: 3 PHASES+N+G 380/400/415/480 V ±10%, 50/60 Hz ± 3 Hz.
• Maximum Input Power: 150 kVA.
• Nominal Load: 60 kVA.
• Ground System: Minimum 35mm² copper from main ground point to PDB. Equipotential linking is required.
• Cables: Must comply with distribution diagrams, be isolated and flexible, and color-coded.
• Cableways: Must be waterproof, protected against temperature, allow for replacement, and be grounded if metal.
• Mandatory LOTO: Core system and LDM option require wall circuit breakers with LOTO capability.

Power Distribution

A power distribution block diagram illustrates the flow of power from the main supply and LDM supply through isolators and the Power Distribution Box (PDB) to various system components like chillers, transformers, generators, cabinets, and UPS units.